DE2650136C2 - - Google Patents

Description

The invention relates to a projectile in the preamble of claim 1 specified Art.

On projectiles that are used in particular to combat law suitable for the police, there will be special requirements changes made. They should, even with different Firing distances, a good projectile effect, i.e. a big En Delivery of energy to the target body with the least possible danger of uninvolved people who are behind or nearby the environment of the lawbreaker. Soon but they should also target hard targets, e.g. Car body energy, be able to penetrate and then use so much energy sit so that they immediately fight the inmate when they hit can do. The projectiles are intended for police use be as universal as possible and in use in all existing types of handguns and long guns, however also submachine guns etc. the flawless if necessary also ensure automatic weapon function as well as a good one Have shooting performance.

Today at the police to fight lawbreakers Solid shell bullets used have a relatively low Energy delivery on. The lawbreaker hit is often still able to act so long that he is able to defeat his opponents, To hostage or innocent people with his weapon or to hurt kill. Another disadvantage of these police bullets is that the projectile after striking a soft target, e.g. egg nes body part, still has such a large residual energy that it uninvolved persons who are behind the right taken stopping, injuring or even killing breakers.  

In contrast to these solid shell bullets, the parts have bullet bullets with soft targets a sufficiently large energy delivery to the target body. These partial clad bullets are the best in principle from a bullet jacket open at the front, in which there is a lead core with a hollow tip. From the US-PS 38 81 421 is still a projectile from a relative soft material, such as lead, is known for some from its front end deformation cavity points in the center of an axial approach to improvement of flight behavior is provided. A disadvantage of this Ge shooting is her strong deformation when hitting hard targets such as car bodies, doors or the like Desired floor splinter and possibly also to the door leads between the cladding and the core, causing the breakdown performance is reduced accordingly. The danger of splinters Incidentally, education also exists with soft targets if the Ge shot hits bone, causing it to become extremely serious and therefore unwanted wound injuries can occur.

The invention has for its object, in particular the projectile intended for handguns and long weapons to avoid disadvantages, i.e. to train this that it takes advantage of solid and partial shell bullets unites, but without their disadvantages, so that it is particularly possible for police operations against lawbreakers is extremely versatile. The floor according to the invention So it should be good for both soft and hard goals be applicable. It must have a good shooting performance assign a sufficiently high probability of hits guarantee, and must also in all types of weapons, including Lich self-loading weapons, enable perfect functioning.  

To solve this problem, the invention is known from ten practice bullets (cf. DE patents 14 53 827 and 15 78 103), which has a continuous axial recess have, which provide a cover at the front end are that the practice floor preferably to the shape of the sharp floor added. This coverage is provided upon delivery of the shot separated from the projectile while the weapon is still in the process if necessary, disassembled and flies as a whole or individually stick out of the gun barrel in front of the projectile. Because of that released continuous recess of the training floor can then some of the propellant gases still unused in the gun barrel flow out to the front. This makes it possible to change the flight distance of the Practice floor in a deliberate manner more or less strongly reduce what's smaller in terms of usage Practice sites are desirable.

The object on which the invention is based is achieved by the measures specified in the characterizing part of claim 1 Connection with the principle known from the practice ammunition the front cover of the Ge shot. The projectile according to the invention is very simply opened builds, so that the effort for its production is comparatively is low. The projectile body is made of a tough, not brittle the metal or alloy, in particular a copper alloy, such as tombac. With this the Defor Any metal parts that break off are avoided. It also results in shorter distances like this are common in police operations, compared to heavier ones Mantle projectiles have a higher target speed, which in ver binding with the others in the characterizing part of claim 1 characteristics an optimal floor deformation both at Soft as well as hard targets.  

The cover is preferably designed so that it complements the projectile according to the invention to a shape which the External shape of the Ge otherwise fired from the respective weapon shot corresponds. Handling and feeding ammunition with the projectile according to the invention therefore corresponds to that the ammunition previously used in weapons, so that e.g. no feed disruptions during cartridge transport from the Maga occur in the cartridge chamber. So that is flawless Function in self-loading weapons such as pistols, submachine guns and rapid-fire guns guaranteed. This flawless waf fenfunktion is of utmost importance for police operations.

The deformation cavity known per se is preferably as rotationally symmetrical recess formed. In cross section viewed, for example, the depression can be circular, be curved as part of an oval or the like. Through this de formation cavity is achieved that on the one hand e.g. at Aim the material of the target body into the cavity and so that part can penetrate into the floor. On the other hand is characterized by the geometric shape and dimensions of the deformat on cavity in connection with the outer shape of the projectile a certain floor wall thickness in the area of the deformation reached cavity, preferably to the rear end, i.e. becomes larger toward the base of the deformation cavity. This Ge lap wall thickness is, according to the invention, substantially less than that Thickness of the storey wall in the area of the continuous axial Recess. Much lower means that under consideration Adjustment of the deformability of the projectile material, mass, ge speed, etc. the projectile when hitting soft targets experiences a substantial cross-sectional enlargement by Area of the deformation cavity under the influence of ra pressure forces of the accumulating in the deformation cavity Material of the target body is expanded radially. Against the floor according to the invention due to the wall thickness adjustment  only slightly expanded when hitting hard targets because the material of the hard target body is less strong in the deforma tion cavity penetrates. Instead, the floor in the Be realm of the deformation cavity then reinforced axially ge upsets. In both cases, the rest of the Ge experience shot in which the one compared to the deformation cavity relatively small clear cross-section send axial through recess, practically none or just a very slight deformation.

The deformation cavity at the front floor end ensures so that the projectile when hitting soft targets, like in the experiment, for example with a gelatin block can be represented, its cross-sectional area significantly enlarged to deliver as much energy as possible to the target to reach the body. This ensures that the projectile after a possible penetration of the target body only has a low residual energy, so that it is unbe for example can not significantly injure or kill people involved. It also ensures that the projectile when it hits on hard targets, for example car bodies, its cross-section only slightly enlarged because of the area of the deformation cavity is deformed essentially only in the axial direction, so that a large breakthrough performance is achieved. The practice shows that this with that of conventional solid jacket bullets is to be compared.

The floor according to the invention is designed as a full floor, i.e. it has no additional jacket. This coat Free full storey hits the target as a solid metal body. Due to its great willingness to deform, it becomes a splinter education when hitting hard parts, such as Kno chen, completely avoided, so that the projectile body can be ur maintains original weight. Because the deformation cavity  during handling, transport, feeding into the pa tronenlager etc. protective cover already in the gun barrel from Floor is separated, i.e. when the bullet hits the If the target is no longer present, the cover can be removed also do not hinder the deformation behavior of the projectile and thus adversely affect.

The cover covering the deformation cavity until firing covers and protects it from damage, the ingress of Protects foreign substances, etc., complements the projectile according to the invention preferably in a form corresponding to that of the past gunshot missiles. The cover has no external ballistic function, i.e. does not affect that Flight behavior of the projectile. It can therefore be different materials are made, provided that the bean withstand spells until they are shot. It is preferred from thermoplastic such as PVC, polyethylene or the like. produced.

The cover is preferably given such a shape - in which it is designed, for example, as a hollow tip - that under the action of the propellant gases when it is fired, it is broken down into the gun barrel or after it has emerged into individual parts that have been relatively quickly out of the trajectory of the projectile be distracted and therefore do not impair his flight behavior. Instead, however, the cover forming the projectile tip can also be formed asymmetrically in a known manner - for example by an eccentrically inside or outside angeord Neten longitudinal notch - so that the cover is deflected laterally out of the projectile flight due to the eccentric center of gravity. In any case, the cover falls due to its comparatively small mass and accordingly low cross-sectional load at a distance of a few meters in front of the muzzle without energy on the floor. The cover is connected to the projectile preferably by friction, for example, the projectile outside overlaps with a corresponding undersize or is pressed into a Ge bore hole with a corresponding pin. Instead of or in addition to such a clamp holder, a snap, screw, adhesive connection or the like could also be provided. The connection must only ensure that the cover is separated from the projectile under the action of the propellant gases in the gun barrel.

The clear cross section of the axial continuous recess is preferably kept so low that the smallest possible ge forward the amount of gas causing the cover to be removed flows to the highest possible bullet speed at the To reach the muzzle. In contrast to the known ones Practice projectiles is in the projectile according to the invention, in which it is a real combat missile, a reduction the bullet speed by a wanted proportionate strong escape of the propellant gas through the projectile by just undesirable. This ensures that this is the case Floor in accordance with the area for the police use a sufficiently high target speed and Has target effect. At longer distances, the flight wide and thus the backcountry hazard by the inventor Floor according to the invention due to the greater air resistance in follow the formation of the deformation cavity compared to the conventional projectiles reduced in an advantageous manner.

In an expedient embodiment of the invention it is provided that Deformation cavity at least substantially cylindrical to build. This makes it very easy to use the De formation behavior with different calibers or cartridges varieties of the respective floor speed to a large extent  fit in order to achieve the most favorable target effect. The controllability of the deformation behavior of the front Ge shooting is generally cheaper than Deforma tion cavities with a curved wall, since in the latter case the storey wall thickness in the area of the deformation cavity increases relatively strongly behind.

According to a further proposal of the invention, the deformity on cavity preferably at least substantially truncated cone shaped to expand towards the front. So that's one even better adaptation of the deformation behavior to the respective possible requirements possible. The angle of inclination to the Floor longitudinal axis can be up to about 30 ° in one occasionally, however, may also be larger. A Nei is preferred angle between about 5 and 15 °.

It is useful to find the optimal dimensions of the deformation cavity depending on the caliber or cartridge type, the bullet speed, the cross section of the axial through going recess, the projectile material, its outer shape, etc. to be determined in each individual case. For cylindrical or frustoconical deformation cavities have proven to be useful if the smallest clear diameter of the deformation cavity and the bullet caliber is roughly like 0.25 to 1 to 0.75 to 1 behavior. But other conditions can vary depending on the Influence of the above parameters proves to be useful sen. As a rule, it is also advantageous if the smallest clear diameter of the deformation cavity for clear diameter of the axial continuous recess like behave about 3 to 1 to 6 to 1. But here are also given if necessary, deviations upwards or downwards are possible. At the cone the frustum-shaped deformation cavity corresponds to the smallest clear diameter to the base diameter. Essentially cylin drisch or frustoconical means, for example, that ge  possibly also at the base or at the front end of the Defor certain roundings can be provided, for example to avoid sharp-edged transitions.

According to the invention, the deformation is also provided cavity with a perpendicular to the longitudinal axis of the floor Training base area. This rear vertical end surface che causes especially in the shot at soft targets that the in material of the soft target penetrating the deformation cavity practically non-deforming on the rear floor part acts, but the radial expansion of the front floor end favored.

According to another proposal of the invention, it is further provided see the axial through recess not directly in the To let deformation cavity pass, but between at a transition part with a medium clear cross section see, whose diameter is therefore larger than that through going recess, but smaller than the smallest diameter is the deformation cavity. This transition part is preferably cylindrical. In the transition exception mung is the cover by means of a zap formed on it fens preferably held by friction. The transition out Depending on the choice of their clear cross-section if also serve to influence the To achieve deformation behavior.

Another advantage of the projectile according to the invention is that it relatively narrow due to its front, possibly also sharp-edged, ring-shaped rim when shot on car tires this literally punched out a circular disc, so that the air can escape immediately and the vehicle quickly to Stopping is forced. Known bullets on car tires shot, on the other hand, often do not give a significantly large  Hole in the tire material so that the air from the tire is not flows out fast enough. This does not make the vehicle a forced to stop quickly and can still drive over continue a certain distance sufficient to escape.

The invention is in the drawing in one embodiment shown and will be explained in more detail below based on this tert. Show it

Fig. 1a the projectile, in longitudinal section without a cover,

FIG. 1b with the projectile shown in the view coverage,

Fig. 2 is a view according to arrow A in Fig. 1b,

Fig. 3 shows the deformed projectile after impact on a soft target in longitudinal section;

Fig. 4 is a view according to arrow B in Fig. 3,

Fig. 5 shows the deformed projectile after impact on a hard target in longitudinal section and

Fig. 6 is a view according to arrow C in Fig. 5.

The projectile has, according to FIG. 1a, the projectile body 1 with the rear hatch 2 , the axial continuous recess 3 acting as a nozzle, the transition region 4 and the deformation cavity 5 with this deformable region 6 surrounding it. The tel telefree full-floor body 1 is made of a tough, non-brittle, deformable material, in particular metals with copper alloys. The side wall 7 of the Deforma tion cavity 5 is formed as a truncated cone surface which widens towards the front. The angle of inclination with respect to the formation cavity 5 is directed perpendicular to the longitudinal axis 8 of the projectile. The clear cross section of the deformation cavity 5 is substantially larger than that of the nozzle bore 3 . The wall thickness of the projectile increases to the rear in the deformable region 6 , but overall it is nevertheless significantly lower in this region than in the region of the nozzle bore 3 . The Ge lap body 1 has an ogival outer shape at the front, but could, for example, also be conical, cylindrical or the like. Ausgebil det. The front end face 10 of the projectile body 1 is designed as a narrow annular surface, but could also be sharp-edged, for example, by the wall 7 of the deformation space 5, for example, being made more inclined.

Fig. 1b shows the complete floor with the cover 11 inserted, which is shown in the view. The cover 11 is held by means of its cylindrical pin 12 in the transition recess 4 by clamping action. It completely covers the deformation cavity 5 and complements the floor to the usual external shape. The cover 11 is made of an impact-resistant, difficult-to-deform plastic, for example PVC. Here it fills the deformation cavity 5 practically completely.

The detachable cover 11 protects the front end face 10 of the projectile body 1 from damage and deformation spe spe in the cartridge feed from the magazine in the patro nenlager with self-loading weapons. When the shot is fired, the detachable cover 11 is easily driven out of the projectile by the propellant gas and leaves the barrel of the firearm in front of the projectile body 1 flying at a reduced speed. Due to the low cross-sectional load, depending on the speed, it falls to the ground without energy at a distance of a few meters in front of the muzzle.

FIGS. 3 and 4 show the projectile after impact on soft targets. The deformation cavity 5 , which represents the truncated cone-shaped depression at the front end of the projectile, fills with parts of this medium upon impact on soft targets, which displaces the projectile material of the deformable region 6 by radial force. As a result, the material is bent backwards and a uniform cross-section enlargement occurs, the size of which is, inter alia, a function of the projectile target speed, the resistance of the target medium and the execution of the deformation cavity 5 of the body body 1 . For projectiles that are used for cartridges with rela tively low projectile speeds, instead of the truncated cone-shaped depression, for example, a cylindrical recess can also be provided in order to keep the wall thickness of the loading area 6 of the projectile body 1 as low as possible, where a lower resistance due to the deformation is opposed.

FIGS. 5 and 6 show the projectile after impact on hard targets. The material of the area 6 is axially deformed when it hits hard targets, whereby the projectile body 1 is compressed so that its length is greatly reduced and its cross-sectional area increases only slightly.

Claims (5)

1. projectile, in particular for handguns and long weapons, with a continuous axial recess which is closed by a front cover connected to the projectile, characterized in that the projectile as a shell-free full projectile ( 1 ) made of a tough, non-brittle metal or a Corresponding alloy is designed for self-loading weapons, which has a from its front end face ( 10 ) extending rearward, with the cover ( 11 ) covered defor mation cavity ( 5 ), in the region ( 6 ) of which the wall thickness of the projectile is substantially smaller than Be in the area adjoining the deformation cavity ( 5 ) send axial recess ( 3 ). 2. Projectile according to claim 1, characterized in that the deformation cavity ( 5 ) is at least substantially cylin drical. 3. Projectile according to claim 1, characterized in that the deformation cavity ( 5 ) widens towards the front at least substantially in the shape of a truncated cone. 4. Projectile according to claim 2 or 3, characterized in that the deformation cavity ( 5 ) has a rear base surface ( 9 ) directed perpendicular to the longitudinal axis of the projectile ( 8 ). 5. Projectile according to one of claims 1 to 4, characterized in that between the deformation cavity ( 5 ) and the axial recess ( 3 ) a transition region ( 4 ) is provided with a medium clear cross section, in which a corresponding pin ( 12 ) Cover ( 11 ), preferably by friction, is held.